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糖皮质激素受体对小鼠GATA-1功能的抑制:类固醇抑制红白血病细胞分化的可能机制。

Inhibition of mouse GATA-1 function by the glucocorticoid receptor: possible mechanism of steroid inhibition of erythroleukemia cell differentiation.

作者信息

Chang T J, Scher B M, Waxman S, Scher W

机构信息

Department of Cellular and Molecular Pathology, Mount Sinai School of Medicine, Mount Sinai Graduate School of Biological Sciences, City University of New York, New York 10029.

出版信息

Mol Endocrinol. 1993 Apr;7(4):528-42. doi: 10.1210/mend.7.4.8502237.

Abstract

Treatment of mouse erythroleukemia (MEL) cells with hexamethylene bisacetamide induces a program of erythrodifferentiation, as judged by an increase in the synthesis of globins and other erythroid-specific products. This induction can be inhibited by glucocorticoids, e.g. dexamethasone. All globin and other erythroid-specific genes tested contain GATA response elements (GATA-RE) and can be transactivated by GATA-1, a transcription factor. GATA-1 is highly expressed in erythroid cells, including MEL cells. We noted a glucocorticoid receptor (GR) response element motif near a GATA-RE motif in the promoter region of the mouse beta-major and beta-minor globin genes and about 130 bases away from a GATA-RE in the alpha 1-globin gene promoter and, therefore, investigated the possibility that the dexamethasone-induced inhibition of induced MEL cell differentiation may involve effects of the GR on GATA-1 activity. Evidence obtained from transfection assays and DNA electrophoretic mobility shift assays indicates that the GR binds GATA-1 and interferes with its function before any interaction with DNA, but that the presence of a glucocorticoid response element near a GATA-RE augments the GR effect. The N-terminal 106-amino acid domain of the GR was found to be essential for the effect, possibly by binding to GATA-1. Since GATA-1 is autoregulatory, i.e. it has been shown by others to bind to its own promoter and up-regulate its own transcription, the finding that activated GR can interfere with GATA-1 function may provide an explanation for the inhibition by glucocorticoids of the entire program of erythroid differentiation in MEL cells. That is, by interfering with GATA-1 function, the GR inhibits not only the expression of erythroid structural genes, but may also inhibit the expression of a primary erythroid regulatory gene, GATA-1. It was also shown that the GATA-RE in each of the beta-globin promoters responds to mouse GATA-1 in a functional transfection assay.

摘要

用六亚甲基双乙酰胺处理小鼠红白血病(MEL)细胞可诱导红细胞分化程序,这可通过珠蛋白和其他红系特异性产物合成的增加来判断。这种诱导可被糖皮质激素(如地塞米松)抑制。所有测试的珠蛋白和其他红系特异性基因都含有GATA反应元件(GATA-RE),并且可被转录因子GATA-1反式激活。GATA-1在包括MEL细胞在内的红系细胞中高度表达。我们在小鼠β-珠蛋白基因的启动子区域中靠近GATA-RE基序处以及在α1-珠蛋白基因启动子中距GATA-RE约130个碱基处发现了一个糖皮质激素受体(GR)反应元件基序,因此研究了地塞米松诱导的MEL细胞分化抑制可能涉及GR对GATA-1活性的影响这一可能性。从转染试验和DNA电泳迁移率变动分析获得的证据表明,GR在与DNA发生任何相互作用之前就与GATA-1结合并干扰其功能,但在GATA-RE附近存在糖皮质激素反应元件会增强GR的作用。发现GR的N端106个氨基酸结构域对于该效应至关重要,可能是通过与GATA-1结合。由于GATA-1是自我调节的,即其他人已证明它可结合自身启动子并上调自身转录,因此活化的GR可干扰GATA-1功能这一发现可能为糖皮质激素抑制MEL细胞中整个红细胞分化程序提供了解释。也就是说,通过干扰GATA-1功能,GR不仅抑制红系结构基因的表达,还可能抑制主要红系调节基因GATA-1的表达。还表明,在功能性转染试验中,每个β-珠蛋白启动子中的GATA-RE对小鼠GATA-1有反应。

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